Buch, Englisch, 352 Seiten, Format (B × H): 183 mm x 260 mm, Gewicht: 863 g
ISBN: 978-1-119-73414-7
Verlag: Wiley
Explore the development and state-of-the-art in deep space exploration using radio science techniques
In Radio Science Techniques for Deep Space Exploration, accomplished NASA/JPL researcher and manager Sami Asmar delivers a multi-disciplinary exploration of the science, technology, engineering, mission operations, and signal processing relevant to deep space radio science. The book discusses basic principles before moving on to more advanced topics that include a wide variety of graphical illustrations and useful references to publications by experts in their respective fields.
Complete explanations of changes in the characteristics of electromagnetic waves and the instrumentation and technology used in scientific experiments are examined.
Radio Science Techniques for Deep Space Exploration offers answers to the question of how to explore the solar system with radio links and better understand the interior structures, atmospheres, rings, and surfaces of other planets. The author also includes:
- Thorough introductions to radio science techniques and systems needed to investigate planetary atmospheres, rings, and surfaces
- Comprehensive explorations of planetary gravity and interior structures, as well as relativistic and solar studies
- Practical discussions of instrumentation, technologies, and future directions in radio science techniques
Perfect for students and professors of physics, astronomy, planetary science, aerospace engineering, and communications engineering, Radio Science Techniques for Deep Space Exploration will also earn a place in the libraries of engineers and scientists in the aerospace industry.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Foreword xi
Preface xiii
Acknowledgments xv
Author and Contributors xvii
1 Investigations and Techniques 1
1.0 Introduction 1
1.1 Historical Background 2
1.1.1 The Field of Radio Science 3
1.2 Fundamental Concepts 5
1.2.1 Categories of RS Investigations 10
1.2.2 Related Fields 12
1.3 Historical Development 14
1.4 Overview of the Radio Science Instrumentation System 18
1.4.1 Flight System 23
1.4.2 Ground System 24
1.4.3 Other Ground Stations 26
1.5 Noise, Error Sources, and Calibrations 26
1.6 Experiment Implementation, Data Archiving, and Critical Mission Support 29
1.7 Radio Science at Home 30
1.8 Future Directions 32
1.9 Summary and Remaining Chapters 32
Appendix 1A Selected Accomplishments and Planned Observations in Spacecraft Radio Science 35
1A.1 Selected Accomplishments in Radio Science 35
1A.2 Planned Observations in the Near-Term 36
1A.3 Planned Observations in the Long Term 37
2 Planetary Atmospheres, Rings, and Surfaces 39
2.1 Overview of Radio Occultations 39
2.2 Neutral Atmospheres 45
2.2.1 Abel Inversion 48
2.3 Ionospheres 52
2.4 Rings 53
2.4.1 Ring Occultation Observables 55
2.4.2 Ring Occultation Analysis 56
2.4.3 Ring Diffraction Correction 60
2.4.4 Data Decimation and Profile Resolution 61
2.4.5 Signal-to-noise Ratio-resolution Tradeoff 61
2.5 Surface Scattering 64
3 Gravity Science and Planetary Interiors 69
3.1 Overview 69
3.2 Gravity Observables and Formulations 74
3.2.1 Alternative Basis and Methods 75
3.2.2 Tidal Forces and Time Variable Gravity 76
3.2.3 Covariance Analysis 81
3.3 Earth and Moon Gravity Measurements and the Development of Crosslinks 83
3.4 Shape and Topography Data for Interpretation of Gravity Measurements 87
3.4.1 Ima
